Similariton-like Pulse Evolution in an Er-Doped Fiber Laser with Hybrid Mode Locking

Similariton-like Pulse Evolution in an Er-Doped Fiber Laser with Hybrid Mode Locking

An Er-doped all-fiber ultrashort pulse laser with positive total net-cavity group-velocity dispersion is demonstrated based on a hybrid mode-locking mechanism ensured by single-walled carbon–boron–nitrogen nanotubes with coaction of the nonlinear polarization evolution effect. The generation regime...

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Veröffentlicht in:Photonics 2024-04, Vol.11 (4), p.387
Hauptverfasser: Fedorenko, Aleksander Y., Ismaeel, Almikdad, Orekhov, Ilya O., Dvoretskiy, Dmitriy A., Sazonkin, Stanislav G., Denisov, Lev K., Karasik, Valeriy E.
Format: Artikel
Sprache:eng
Schlagworte:
Boron
Doped fibers
Equipment and supplies
erbium-doped fiber lasers
Evolution
Fiber lasers
Fiber optics
Fourier transforms
Frequency ranges
Hybrid modes
Lasers
Mode locking
Nanotechnology
Nanotubes
Noise intensity
Noise levels
Pulse duration
pulse evolution
Pulse propagation
Pulse repetition rate
Radiation
Relative intensity noise
Signal to noise ratio
similariton-like pulses
Spectrum analysis
ultrashort pulse generation
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Zusammenfassung:An Er-doped all-fiber ultrashort pulse laser with positive total net-cavity group-velocity dispersion is demonstrated based on a hybrid mode-locking mechanism ensured by single-walled carbon–boron–nitrogen nanotubes with coaction of the nonlinear polarization evolution effect. The generation regime with a similariton-like spectrum is obtained. The spectrum width is ~31.5 nm, and the minimal pulse duration is ~294 fs at full width at half maximum. The average output power is ~3.2 mW, corresponding to 0.376 nJ pulse energy and 1.25 kW peak power. The fundamental pulse repetition rate is ~8.5 MHz, with a signal-to-noise ratio of 60 dB. The standard deviation of average output optical power stability, measured for 12 h, is about ~1% RMS, and the maximum level of relative intensity noise (RIN) does not exceed
ISSN:2304-6732
2304-6732
DOI:10.3390/photonics11040387